Telescoping Enclosure for Information Handling System Component

1. A telescoping information handling system component, comprising: a first enclosure; a second enclosure slidably coupled to the first enclosure; a latch configured to latch the first enclosure to one of a plurality of available selectably latchable positions relative to the second enclosure along a single sliding path of a sliding coupling between the first enclosure and the second enclosure; and a service loop configured to electrically couple a first sub-component located in the first enclosure to a second sub-component located in the second enclosure; wherein the telescoping information handling system component including the first enclosure and the second enclosure is configured to slidably couple to a bay configured to be placed within a chassis.

2. The telescoping information handling system component of claim 1 , further comprising: a fan located in one of the first enclosure or the second enclosure; an inlet vent formed in one of the first enclosure or the second enclosure; and an outlet vent formed in one of the first enclosure or the second enclosure.

3. The telescoping information handling system component of claim 2 , wherein: a first venting profile of the telescoping information handling system component is based on the inlet vent and the outlet vent when the first enclosure is set to a first position relative to the second enclosure; a second venting profile of the telescoping information handling system component is based on the inlet vent and the outlet vent when the first enclosure is set to a second position relative to the second enclosure; and the first venting profile is substantially the same as the second venting profile.

4. The telescoping information handling system component of claim 2 , wherein: a first venting profile of the telescoping information handling system component is based on the inlet vent and the outlet vent when the first enclosure is set to a first position relative to the second enclosure; a second venting profile of the telescoping information handling system component is based on the inlet vent and the outlet vent when the first enclosure is set to a second position relative to the second enclosure; and the first venting profile is different than the second venting profile.

5. An information handling system comprising: a bay configured to be placed within a chassis; and a telescoping information handling system component slidably coupled to the bay and electrically coupled to the bay, the telescoping information handling system component including: a first enclosure; a second enclosure slidably coupled to the first enclosure; a latch configured to latch the first enclosure to one of a plurality of available selectably latchable positions relative to the second enclosure along a single sliding path of a sliding coupling between the first enclosure and the second enclosure; and a service loop configured to electrically couple a first sub-component located in the first enclosure to a second sub-component located in the second enclosure.

6. The information handling system of claim 5 , wherein: the latch is further configured to allow the position of the first enclosure relative to the second enclosure to be adjusted by a force placing the telescoping information handling system component into the bay when the latch is engaged; and a trigger mechanism associated with the bay is configured to engage the latch when the telescoping information handling system component is placed into the bay.

7. The information handling system of claim 5 , wherein the telescoping information handling system component further includes: a fan located in one of the first enclosure or the second enclosure; an inlet vent located in one of the first enclosure or the second enclosure; and an outlet vent located in one of the first enclosure or the second enclosure.

8. The information handling system of claim 7 , wherein: a first venting profile of the telescoping information handling system component is based on the inlet vent and the outlet vent when the first enclosure is set to a first position relative to the second enclosure; a second venting profile of the telescoping information handling system component is based on the inlet vent and the outlet vent when the first enclosure is set to a second position relative to the second enclosure; and the first venting profile is substantially the same as the second venting profile.

9. The information handling system of claim 7 , wherein: a first venting profile of the telescoping information handling system component is based on the inlet vent and the outlet vent when the first enclosure is set to a first position relative to the second enclosure; a second venting profile of the telescoping information handling system component is based on the inlet vent and the outlet vent when the first enclosure is set to a second position relative to the second enclosure; and the first venting profile is different than the second venting profile.

10. A telescoping power supply, comprising: a first enclosure; a second enclosure slidably coupled to the first enclosure; a latch configured to latch the first enclosure to one of a plurality of available selectably latchable positions relative to the second enclosure along a single sliding path of a sliding coupling between the first enclosure and the second enclosure; a converter located in at least one of the first enclosure and the second enclosure; and a service loop extending from the first enclosure to the second enclosure; wherein the telescoping power supply including the first enclosure and the second enclosure is configured to slidably couple to a bay configured to be placed within a chassis.

11. The telescoping power supply of claim 10 , wherein: the converter is located in the first enclosure; and the service loop is configured to electrically couple a sub-component located in the second enclosure to the converter.

12. The telescoping power supply of claim 10 , wherein: the converter is located in the second enclosure; and the service loop is configured to electrically couple a sub-component located in the first enclosure to the converter.

13. The telescoping power supply of claim 10 , wherein: the converter includes a first element located in the first enclosure and a second element located in the second enclosure; and the service loop is configured to electrically couple the first element to the second element.

14. The telescoping power supply of claim 10 , wherein the converter is configured to receive a first direct-current supply voltage and to output a second direct-current supply voltage.

15. The telescoping power supply of claim 10 , wherein the converter is configured to receive an alternating-current supply voltage and to output a direct-current supply voltage.

16. The telescoping power supply of claim 10 , further comprising: a fan located in one of the first enclosure or the second enclosure; an inlet vent formed in one of the first enclosure or the second enclosure; and an outlet vent formed in one of the first enclosure or the second enclosure.

17. The telescoping power supply of claim 16 , wherein: a first venting profile of the telescoping power supply is based on the inlet vent and the outlet vent when the first enclosure is set to a first position relative to the second enclosure; a second venting profile of the telescoping power supply is based on the inlet vent and the outlet vent when the first enclosure is set to a second position relative to the second enclosure; and the first venting profile is substantially the same as the second venting profile.

18. The telescoping power supply of claim 16 , wherein: a first venting profile of the telescoping power supply is based on the inlet vent and the outlet vent when the first enclosure is set to a first position relative to the second enclosure; a second venting profile of the telescoping power supply is based on the inlet vent and the outlet vent when the first enclosure is set to a second position relative to the second enclosure; and the first venting profile is different than the second venting profile.